| // Copyright 2013 The Chromium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| #include "mojo/edk/system/core.h" |
| |
| #include <stdint.h> |
| |
| #include <limits> |
| |
| #include "base/bind.h" |
| #include "mojo/edk/system/awakable.h" |
| #include "mojo/edk/system/core_test_base.h" |
| #include "mojo/edk/system/test_utils.h" |
| #include "mojo/public/cpp/system/macros.h" |
| |
| namespace mojo { |
| namespace system { |
| namespace { |
| |
| const MojoHandleSignalsState kEmptyMojoHandleSignalsState = {0u, 0u}; |
| const MojoHandleSignalsState kFullMojoHandleSignalsState = {~0u, ~0u}; |
| const MojoHandleSignals kAllSignals = MOJO_HANDLE_SIGNAL_READABLE | |
| MOJO_HANDLE_SIGNAL_WRITABLE | |
| MOJO_HANDLE_SIGNAL_PEER_CLOSED; |
| |
| using CoreTest = test::CoreTestBase; |
| |
| TEST_F(CoreTest, GetTimeTicksNow) { |
| const MojoTimeTicks start = core()->GetTimeTicksNow(); |
| EXPECT_NE(static_cast<MojoTimeTicks>(0), start) |
| << "GetTimeTicksNow should return nonzero value"; |
| test::Sleep(test::DeadlineFromMilliseconds(15)); |
| const MojoTimeTicks finish = core()->GetTimeTicksNow(); |
| // Allow for some fuzz in sleep. |
| EXPECT_GE((finish - start), static_cast<MojoTimeTicks>(8000)) |
| << "Sleeping should result in increasing time ticks"; |
| } |
| |
| TEST_F(CoreTest, Basic) { |
| MockHandleInfo info; |
| |
| EXPECT_EQ(0u, info.GetCtorCallCount()); |
| MojoHandle h = CreateMockHandle(&info); |
| EXPECT_EQ(1u, info.GetCtorCallCount()); |
| EXPECT_NE(h, MOJO_HANDLE_INVALID); |
| |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h, NullUserPointer(), 0, NullUserPointer(), 0, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteMessageCallCount()); |
| |
| EXPECT_EQ(0u, info.GetReadMessageCallCount()); |
| uint32_t num_bytes = 0; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->ReadMessage(h, NullUserPointer(), MakeUserPointer(&num_bytes), |
| NullUserPointer(), NullUserPointer(), |
| MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetReadMessageCallCount()); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage(h, NullUserPointer(), NullUserPointer(), |
| NullUserPointer(), NullUserPointer(), |
| MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(2u, info.GetReadMessageCallCount()); |
| |
| EXPECT_EQ(0u, info.GetWriteDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, |
| core()->WriteData(h, NullUserPointer(), NullUserPointer(), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetBeginWriteDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, |
| core()->BeginWriteData(h, NullUserPointer(), NullUserPointer(), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetBeginWriteDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetEndWriteDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, core()->EndWriteData(h, 0)); |
| EXPECT_EQ(1u, info.GetEndWriteDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetReadDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, |
| core()->ReadData(h, NullUserPointer(), NullUserPointer(), |
| MOJO_READ_DATA_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetReadDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetBeginReadDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, |
| core()->BeginReadData(h, NullUserPointer(), NullUserPointer(), |
| MOJO_READ_DATA_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetBeginReadDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetEndReadDataCallCount()); |
| EXPECT_EQ(MOJO_RESULT_UNIMPLEMENTED, core()->EndReadData(h, 0)); |
| EXPECT_EQ(1u, info.GetEndReadDataCallCount()); |
| |
| EXPECT_EQ(0u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h, ~MOJO_HANDLE_SIGNAL_NONE, MOJO_DEADLINE_INDEFINITE, |
| NullUserPointer())); |
| EXPECT_EQ(1u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h, ~MOJO_HANDLE_SIGNAL_NONE, 0, NullUserPointer())); |
| EXPECT_EQ(2u, info.GetAddAwakableCallCount()); |
| MojoHandleSignalsState hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h, ~MOJO_HANDLE_SIGNAL_NONE, MOJO_DEADLINE_INDEFINITE, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(3u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(0u, hss.satisfiable_signals); |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h, ~MOJO_HANDLE_SIGNAL_NONE, 10 * 1000, NullUserPointer())); |
| EXPECT_EQ(4u, info.GetAddAwakableCallCount()); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h, ~MOJO_HANDLE_SIGNAL_NONE, 10 * 1000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(5u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(0u, hss.satisfiable_signals); |
| |
| MojoHandleSignals handle_signals = ~MOJO_HANDLE_SIGNAL_NONE; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany(MakeUserPointer(&h), MakeUserPointer(&handle_signals), 1, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| EXPECT_EQ(6u, info.GetAddAwakableCallCount()); |
| uint32_t result_index = static_cast<uint32_t>(-1); |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany(MakeUserPointer(&h), MakeUserPointer(&handle_signals), 1, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| NullUserPointer())); |
| EXPECT_EQ(7u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(0u, result_index); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany(MakeUserPointer(&h), MakeUserPointer(&handle_signals), 1, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(8u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(0u, hss.satisfiable_signals); |
| result_index = static_cast<uint32_t>(-1); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany(MakeUserPointer(&h), MakeUserPointer(&handle_signals), 1, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(9u, info.GetAddAwakableCallCount()); |
| EXPECT_EQ(0u, result_index); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(0u, hss.satisfiable_signals); |
| |
| EXPECT_EQ(0u, info.GetDtorCallCount()); |
| EXPECT_EQ(0u, info.GetCloseCallCount()); |
| EXPECT_EQ(0u, info.GetCancelAllAwakablesCallCount()); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| EXPECT_EQ(1u, info.GetCancelAllAwakablesCallCount()); |
| EXPECT_EQ(1u, info.GetCloseCallCount()); |
| EXPECT_EQ(1u, info.GetDtorCallCount()); |
| |
| // No awakables should ever have ever been added. |
| EXPECT_EQ(0u, info.GetRemoveAwakableCallCount()); |
| } |
| |
| TEST_F(CoreTest, InvalidArguments) { |
| // |Close()|: |
| { |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(MOJO_HANDLE_INVALID)); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(10)); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(1000000000)); |
| |
| // Test a double-close. |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| EXPECT_EQ(1u, info.GetCloseCallCount()); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(h)); |
| EXPECT_EQ(1u, info.GetCloseCallCount()); |
| } |
| |
| // |Wait()|: |
| { |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->Wait(MOJO_HANDLE_INVALID, ~MOJO_HANDLE_SIGNAL_NONE, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer())); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->Wait(10, ~MOJO_HANDLE_SIGNAL_NONE, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer())); |
| |
| MojoHandleSignalsState hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->Wait(MOJO_HANDLE_INVALID, ~MOJO_HANDLE_SIGNAL_NONE, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&hss))); |
| // On invalid argument, it shouldn't modify the handle signals state. |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfied_signals, |
| hss.satisfied_signals); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfiable_signals, |
| hss.satisfiable_signals); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->Wait(10, ~MOJO_HANDLE_SIGNAL_NONE, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&hss))); |
| // On invalid argument, it shouldn't modify the handle signals state. |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfied_signals, |
| hss.satisfied_signals); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfiable_signals, |
| hss.satisfiable_signals); |
| } |
| |
| // |WaitMany()|: |
| { |
| MojoHandle handles[2] = {MOJO_HANDLE_INVALID, MOJO_HANDLE_INVALID}; |
| MojoHandleSignals signals[2] = {~MOJO_HANDLE_SIGNAL_NONE, |
| ~MOJO_HANDLE_SIGNAL_NONE}; |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(MakeUserPointer(handles), MakeUserPointer(signals), 0, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(NullUserPointer(), MakeUserPointer(signals), 0, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| // If |num_handles| is invalid, it should leave |result_index| and |
| // |signals_states| alone. |
| // (We use -1 internally; make sure that doesn't leak.) |
| uint32_t result_index = 123; |
| MojoHandleSignalsState hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(NullUserPointer(), MakeUserPointer(signals), 0, |
| MOJO_DEADLINE_INDEFINITE, |
| MakeUserPointer(&result_index), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(123u, result_index); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfied_signals, |
| hss.satisfied_signals); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfiable_signals, |
| hss.satisfiable_signals); |
| |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(MakeUserPointer(handles), NullUserPointer(), 0, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(MakeUserPointer(handles), MakeUserPointer(signals), 1, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| // But if a handle is bad, then it should set |result_index| but still leave |
| // |signals_states| alone. |
| result_index = static_cast<uint32_t>(-1); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany( |
| MakeUserPointer(handles), MakeUserPointer(signals), 1, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(0u, result_index); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfied_signals, |
| hss.satisfied_signals); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfiable_signals, |
| hss.satisfiable_signals); |
| |
| MockHandleInfo info[2]; |
| handles[0] = CreateMockHandle(&info[0]); |
| |
| result_index = static_cast<uint32_t>(-1); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany( |
| MakeUserPointer(handles), MakeUserPointer(signals), 1, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(0u, result_index); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(0u, hss.satisfiable_signals); |
| |
| // On invalid argument, it'll leave |signals_states| alone. |
| result_index = static_cast<uint32_t>(-1); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany( |
| MakeUserPointer(handles), MakeUserPointer(signals), 2, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(1u, result_index); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfied_signals, |
| hss.satisfied_signals); |
| EXPECT_EQ(kFullMojoHandleSignalsState.satisfiable_signals, |
| hss.satisfiable_signals); |
| handles[1] = handles[0] + 1; // Invalid handle. |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WaitMany(MakeUserPointer(handles), MakeUserPointer(signals), 2, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| handles[1] = CreateMockHandle(&info[1]); |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WaitMany(MakeUserPointer(handles), MakeUserPointer(signals), 2, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer())); |
| |
| // TODO(vtl): Test one where we get "failed precondition" only for the |
| // second handle (and the first one is valid to wait on). |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(handles[0])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(handles[1])); |
| } |
| |
| // |CreateMessagePipe()|: Nothing to check (apart from things that cause |
| // death). |
| |
| // |WriteMessage()|: |
| // Only check arguments checked by |Core|, namely |handle|, |handles|, and |
| // |num_handles|. |
| { |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WriteMessage(MOJO_HANDLE_INVALID, NullUserPointer(), 0, |
| NullUserPointer(), 0, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| MojoHandle handles[2] = {MOJO_HANDLE_INVALID, MOJO_HANDLE_INVALID}; |
| |
| // Huge handle count (implausibly big on some systems -- more than can be |
| // stored in a 32-bit address space). |
| // Note: This may return either |MOJO_RESULT_INVALID_ARGUMENT| or |
| // |MOJO_RESULT_RESOURCE_EXHAUSTED|, depending on whether it's plausible or |
| // not. |
| EXPECT_NE( |
| MOJO_RESULT_OK, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| std::numeric_limits<uint32_t>::max(), |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| |
| // Huge handle count (plausibly big). |
| EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED, |
| core()->WriteMessage( |
| h, NullUserPointer(), 0, MakeUserPointer(handles), |
| std::numeric_limits<uint32_t>::max() / sizeof(handles[0]), |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| |
| // Invalid handle in |handles|. |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 1, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| |
| // Two invalid handles in |handles|. |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 2, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| |
| // Can't send a handle over itself. |
| handles[0] = h; |
| EXPECT_EQ( |
| MOJO_RESULT_BUSY, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 1, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(0u, info.GetWriteMessageCallCount()); |
| |
| MockHandleInfo info2; |
| MojoHandle h2 = CreateMockHandle(&info2); |
| |
| // This is "okay", but |MockDispatcher| doesn't implement it. |
| handles[0] = h2; |
| EXPECT_EQ( |
| MOJO_RESULT_UNIMPLEMENTED, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 1, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteMessageCallCount()); |
| |
| // One of the |handles| is still invalid. |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 2, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteMessageCallCount()); |
| |
| // One of the |handles| is the same as |handle|. |
| handles[1] = h; |
| EXPECT_EQ( |
| MOJO_RESULT_BUSY, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 2, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteMessageCallCount()); |
| |
| // Can't send a handle twice in the same message. |
| handles[1] = h2; |
| EXPECT_EQ( |
| MOJO_RESULT_BUSY, |
| core()->WriteMessage(h, NullUserPointer(), 0, MakeUserPointer(handles), |
| 2, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, info.GetWriteMessageCallCount()); |
| |
| // Note: Since we never successfully sent anything with it, |h2| should |
| // still be valid. |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h2)); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| } |
| |
| // |ReadMessage()|: |
| // Only check arguments checked by |Core|, namely |handle|, |handles|, and |
| // |num_handles|. |
| { |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->ReadMessage(MOJO_HANDLE_INVALID, NullUserPointer(), |
| NullUserPointer(), NullUserPointer(), |
| NullUserPointer(), MOJO_READ_MESSAGE_FLAG_NONE)); |
| |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| |
| // Okay. |
| uint32_t handle_count = 0; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h, NullUserPointer(), NullUserPointer(), NullUserPointer(), |
| MakeUserPointer(&handle_count), MOJO_READ_MESSAGE_FLAG_NONE)); |
| // Checked by |Core|, shouldn't go through to the dispatcher. |
| EXPECT_EQ(1u, info.GetReadMessageCallCount()); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| } |
| } |
| |
| // These test invalid arguments that should cause death if we're being paranoid |
| // about checking arguments (which we would want to do if, e.g., we were in a |
| // true "kernel" situation, but we might not want to do otherwise for |
| // performance reasons). Probably blatant errors like passing in null pointers |
| // (for required pointer arguments) will still cause death, but perhaps not |
| // predictably. |
| TEST_F(CoreTest, InvalidArgumentsDeath) { |
| const char kMemoryCheckFailedRegex[] = "Check failed"; |
| |
| // |WaitMany()|: |
| { |
| MojoHandle handle = MOJO_HANDLE_INVALID; |
| MojoHandleSignals signals = ~MOJO_HANDLE_SIGNAL_NONE; |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->WaitMany(NullUserPointer(), MakeUserPointer(&signals), 1, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer()), |
| kMemoryCheckFailedRegex); |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->WaitMany(MakeUserPointer(&handle), NullUserPointer(), 1, |
| MOJO_DEADLINE_INDEFINITE, NullUserPointer(), |
| NullUserPointer()), |
| kMemoryCheckFailedRegex); |
| // TODO(vtl): |result_index| and |signals_states| are optional. Test them |
| // with non-null invalid pointers? |
| } |
| |
| // |CreateMessagePipe()|: |
| { |
| MojoHandle h; |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->CreateMessagePipe(NullUserPointer(), NullUserPointer(), |
| NullUserPointer()), |
| kMemoryCheckFailedRegex); |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->CreateMessagePipe(NullUserPointer(), MakeUserPointer(&h), |
| NullUserPointer()), |
| kMemoryCheckFailedRegex); |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->CreateMessagePipe(NullUserPointer(), NullUserPointer(), |
| MakeUserPointer(&h)), |
| kMemoryCheckFailedRegex); |
| } |
| |
| // |WriteMessage()|: |
| // Only check arguments checked by |Core|, namely |handle|, |handles|, and |
| // |num_handles|. |
| { |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| |
| // Null |handles| with nonzero |num_handles|. |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->WriteMessage(h, NullUserPointer(), 0, NullUserPointer(), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE), |
| kMemoryCheckFailedRegex); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| } |
| |
| // |ReadMessage()|: |
| // Only check arguments checked by |Core|, namely |handle|, |handles|, and |
| // |num_handles|. |
| { |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| |
| uint32_t handle_count = 1; |
| EXPECT_DEATH_IF_SUPPORTED( |
| core()->ReadMessage(h, NullUserPointer(), NullUserPointer(), |
| NullUserPointer(), MakeUserPointer(&handle_count), |
| MOJO_READ_MESSAGE_FLAG_NONE), |
| kMemoryCheckFailedRegex); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| } |
| } |
| |
| // TODO(vtl): test |Wait()| and |WaitMany()| properly |
| // - including |WaitMany()| with the same handle more than once (with |
| // same/different signals) |
| |
| TEST_F(CoreTest, MessagePipe) { |
| MojoHandle h[2]; |
| MojoHandleSignalsState hss[2]; |
| uint32_t result_index; |
| |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateMessagePipe(NullUserPointer(), MakeUserPointer(&h[0]), |
| MakeUserPointer(&h[1]))); |
| // Should get two distinct, valid handles. |
| EXPECT_NE(h[0], MOJO_HANDLE_INVALID); |
| EXPECT_NE(h[1], MOJO_HANDLE_INVALID); |
| EXPECT_NE(h[0], h[1]); |
| |
| // Neither should be readable. |
| MojoHandleSignals signals[2] = {MOJO_HANDLE_SIGNAL_READABLE, |
| MOJO_HANDLE_SIGNAL_READABLE}; |
| result_index = static_cast<uint32_t>(-1); |
| hss[0] = kEmptyMojoHandleSignalsState; |
| hss[1] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_DEADLINE_EXCEEDED, |
| core()->WaitMany(MakeUserPointer(h), MakeUserPointer(signals), 2, 0, |
| MakeUserPointer(&result_index), MakeUserPointer(hss))); |
| EXPECT_EQ(static_cast<uint32_t>(-1), result_index); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[1].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[1].satisfiable_signals); |
| |
| // Try to read anyway. |
| char buffer[1] = {'a'}; |
| uint32_t buffer_size = 1; |
| EXPECT_EQ( |
| MOJO_RESULT_SHOULD_WAIT, |
| core()->ReadMessage(h[0], UserPointer<void>(buffer), |
| MakeUserPointer(&buffer_size), NullUserPointer(), |
| NullUserPointer(), MOJO_READ_MESSAGE_FLAG_NONE)); |
| // Check that it left its inputs alone. |
| EXPECT_EQ('a', buffer[0]); |
| EXPECT_EQ(1u, buffer_size); |
| |
| // Both should be writable. |
| hss[0] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(h[0], MOJO_HANDLE_SIGNAL_WRITABLE, |
| 1000000000, MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| hss[0] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(h[1], MOJO_HANDLE_SIGNAL_WRITABLE, |
| 1000000000, MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| |
| // Also check that |h[1]| is writable using |WaitMany()|. |
| signals[0] = MOJO_HANDLE_SIGNAL_READABLE; |
| signals[1] = MOJO_HANDLE_SIGNAL_WRITABLE; |
| result_index = static_cast<uint32_t>(-1); |
| hss[0] = kEmptyMojoHandleSignalsState; |
| hss[1] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->WaitMany(MakeUserPointer(h), MakeUserPointer(signals), 2, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(hss))); |
| EXPECT_EQ(1u, result_index); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[1].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[1].satisfiable_signals); |
| |
| // Write to |h[1]|. |
| buffer[0] = 'b'; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->WriteMessage(h[1], UserPointer<const void>(buffer), 1, |
| NullUserPointer(), 0, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| // Check that |h[0]| is now readable. |
| signals[0] = MOJO_HANDLE_SIGNAL_READABLE; |
| signals[1] = MOJO_HANDLE_SIGNAL_READABLE; |
| result_index = static_cast<uint32_t>(-1); |
| hss[0] = kEmptyMojoHandleSignalsState; |
| hss[1] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->WaitMany(MakeUserPointer(h), MakeUserPointer(signals), 2, |
| MOJO_DEADLINE_INDEFINITE, MakeUserPointer(&result_index), |
| MakeUserPointer(hss))); |
| EXPECT_EQ(0u, result_index); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[1].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[1].satisfiable_signals); |
| |
| // Read from |h[0]|. |
| // First, get only the size. |
| buffer_size = 0; |
| EXPECT_EQ( |
| MOJO_RESULT_RESOURCE_EXHAUSTED, |
| core()->ReadMessage(h[0], NullUserPointer(), |
| MakeUserPointer(&buffer_size), NullUserPointer(), |
| NullUserPointer(), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(1u, buffer_size); |
| // Then actually read it. |
| buffer[0] = 'c'; |
| buffer_size = 1; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->ReadMessage(h[0], UserPointer<void>(buffer), |
| MakeUserPointer(&buffer_size), NullUserPointer(), |
| NullUserPointer(), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ('b', buffer[0]); |
| EXPECT_EQ(1u, buffer_size); |
| |
| // |h[0]| should no longer be readable. |
| hss[0] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_DEADLINE_EXCEEDED, |
| core()->Wait(h[0], MOJO_HANDLE_SIGNAL_READABLE, 0, |
| MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss[0].satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss[0].satisfiable_signals); |
| |
| // Write to |h[0]|. |
| buffer[0] = 'd'; |
| EXPECT_EQ( |
| MOJO_RESULT_OK, |
| core()->WriteMessage(h[0], UserPointer<const void>(buffer), 1, |
| NullUserPointer(), 0, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| // Close |h[0]|. |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h[0])); |
| |
| // Check that |h[1]| is no longer writable (and will never be). |
| hss[0] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h[1], MOJO_HANDLE_SIGNAL_WRITABLE, 1000000000, |
| MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss[0].satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss[0].satisfiable_signals); |
| |
| // Check that |h[1]| is still readable (for the moment). |
| hss[0] = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(h[1], MOJO_HANDLE_SIGNAL_READABLE, |
| 1000000000, MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss[0].satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss[0].satisfiable_signals); |
| |
| // Discard a message from |h[1]|. |
| EXPECT_EQ(MOJO_RESULT_RESOURCE_EXHAUSTED, |
| core()->ReadMessage(h[1], NullUserPointer(), NullUserPointer(), |
| NullUserPointer(), NullUserPointer(), |
| MOJO_READ_MESSAGE_FLAG_MAY_DISCARD)); |
| |
| // |h[1]| is no longer readable (and will never be). |
| hss[0] = kFullMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(h[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss[0]))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_PEER_CLOSED, hss[0].satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_PEER_CLOSED, hss[0].satisfiable_signals); |
| |
| // Try writing to |h[1]|. |
| buffer[0] = 'e'; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->WriteMessage(h[1], UserPointer<const void>(buffer), 1, |
| NullUserPointer(), 0, MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h[1])); |
| } |
| |
| // Tests passing a message pipe handle. |
| TEST_F(CoreTest, MessagePipeBasicLocalHandlePassing1) { |
| const char kHello[] = "hello"; |
| const uint32_t kHelloSize = static_cast<uint32_t>(sizeof(kHello)); |
| const char kWorld[] = "world!!!"; |
| const uint32_t kWorldSize = static_cast<uint32_t>(sizeof(kWorld)); |
| char buffer[100]; |
| const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer)); |
| uint32_t num_bytes; |
| MojoHandle handles[10]; |
| uint32_t num_handles; |
| MojoHandleSignalsState hss; |
| MojoHandle h_received; |
| |
| MojoHandle h_passing[2]; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateMessagePipe(NullUserPointer(), |
| MakeUserPointer(&h_passing[0]), |
| MakeUserPointer(&h_passing[1]))); |
| |
| // Make sure that |h_passing[]| work properly. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, NullUserPointer(), 0, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| EXPECT_EQ(0u, num_handles); |
| |
| // Make sure that you can't pass either of the message pipe's handles over |
| // itself. |
| EXPECT_EQ(MOJO_RESULT_BUSY, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&h_passing[0]), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&h_passing[1]), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| MojoHandle h_passed[2]; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateMessagePipe(NullUserPointer(), |
| MakeUserPointer(&h_passed[0]), |
| MakeUserPointer(&h_passed[1]))); |
| |
| // Make sure that |h_passed[]| work properly. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passed[0], UserPointer<const void>(kHello), |
| kHelloSize, NullUserPointer(), 0, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passed[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passed[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| EXPECT_EQ(0u, num_handles); |
| |
| // Send |h_passed[1]| from |h_passing[0]| to |h_passing[1]|. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kWorld), |
| kWorldSize, MakeUserPointer(&h_passed[1]), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kWorldSize, num_bytes); |
| EXPECT_STREQ(kWorld, buffer); |
| EXPECT_EQ(1u, num_handles); |
| h_received = handles[0]; |
| EXPECT_NE(h_received, MOJO_HANDLE_INVALID); |
| EXPECT_NE(h_received, h_passing[0]); |
| EXPECT_NE(h_received, h_passing[1]); |
| EXPECT_NE(h_received, h_passed[0]); |
| |
| // Note: We rely on the Mojo system not re-using handle values very often. |
| EXPECT_NE(h_received, h_passed[1]); |
| |
| // |h_passed[1]| should no longer be valid; check that trying to close it |
| // fails. See above note. |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(h_passed[1])); |
| |
| // Write to |h_passed[0]|. Should receive on |h_received|. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passed[0], UserPointer<const void>(kHello), |
| kHelloSize, NullUserPointer(), 0, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_received, MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_received, UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| EXPECT_EQ(0u, num_handles); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_passing[0])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_passing[1])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_passed[0])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_received)); |
| } |
| |
| TEST_F(CoreTest, DataPipe) { |
| MojoHandle ph, ch; // p is for producer and c is for consumer. |
| MojoHandleSignalsState hss; |
| |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateDataPipe(NullUserPointer(), MakeUserPointer(&ph), |
| MakeUserPointer(&ch))); |
| // Should get two distinct, valid handles. |
| EXPECT_NE(ph, MOJO_HANDLE_INVALID); |
| EXPECT_NE(ch, MOJO_HANDLE_INVALID); |
| EXPECT_NE(ph, ch); |
| |
| // Producer should be never-readable, but already writable. |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(ph, MOJO_HANDLE_SIGNAL_READABLE, 0, MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(ph, MOJO_HANDLE_SIGNAL_WRITABLE, 0, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_WRITABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| |
| // Consumer should be never-writable, and not yet readable. |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(ch, MOJO_HANDLE_SIGNAL_WRITABLE, 0, MakeUserPointer(&hss))); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_DEADLINE_EXCEEDED, |
| core()->Wait(ch, MOJO_HANDLE_SIGNAL_READABLE, 0, MakeUserPointer(&hss))); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| |
| // Write. |
| signed char elements[2] = {'A', 'B'}; |
| uint32_t num_bytes = 2u; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteData(ph, UserPointer<const void>(elements), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| EXPECT_EQ(2u, num_bytes); |
| |
| // Consumer should now be readable. |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(ch, MOJO_HANDLE_SIGNAL_READABLE, 0, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| |
| // Peek one character. |
| elements[0] = -1; |
| elements[1] = -1; |
| num_bytes = 1u; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadData( |
| ch, UserPointer<void>(elements), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_NONE | MOJO_READ_DATA_FLAG_PEEK)); |
| EXPECT_EQ('A', elements[0]); |
| EXPECT_EQ(-1, elements[1]); |
| |
| // Read one character. |
| elements[0] = -1; |
| elements[1] = -1; |
| num_bytes = 1u; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->ReadData(ch, UserPointer<void>(elements), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_NONE)); |
| EXPECT_EQ('A', elements[0]); |
| EXPECT_EQ(-1, elements[1]); |
| |
| // Two-phase write. |
| void* write_ptr = nullptr; |
| num_bytes = 0u; |
| ASSERT_EQ(MOJO_RESULT_OK, |
| core()->BeginWriteData(ph, MakeUserPointer(&write_ptr), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| // We count on the default options providing a decent buffer size. |
| ASSERT_GE(num_bytes, 3u); |
| |
| // Trying to do a normal write during a two-phase write should fail. |
| elements[0] = 'X'; |
| num_bytes = 1u; |
| EXPECT_EQ(MOJO_RESULT_BUSY, |
| core()->WriteData(ph, UserPointer<const void>(elements), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| |
| // Actually write the data, and complete it now. |
| static_cast<char*>(write_ptr)[0] = 'C'; |
| static_cast<char*>(write_ptr)[1] = 'D'; |
| static_cast<char*>(write_ptr)[2] = 'E'; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->EndWriteData(ph, 3u)); |
| |
| // Query how much data we have. |
| num_bytes = 0; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadData(ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_QUERY)); |
| EXPECT_EQ(4u, num_bytes); |
| |
| // Try to query with peek. Should fail. |
| num_bytes = 0; |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->ReadData(ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_QUERY | MOJO_READ_DATA_FLAG_PEEK)); |
| EXPECT_EQ(0u, num_bytes); |
| |
| // Try to discard ten characters, in all-or-none mode. Should fail. |
| num_bytes = 10; |
| EXPECT_EQ(MOJO_RESULT_OUT_OF_RANGE, |
| core()->ReadData( |
| ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_DISCARD | MOJO_READ_DATA_FLAG_ALL_OR_NONE)); |
| |
| // Try to discard two characters, in peek mode. Should fail. |
| num_bytes = 2; |
| EXPECT_EQ( |
| MOJO_RESULT_INVALID_ARGUMENT, |
| core()->ReadData(ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_DISCARD | MOJO_READ_DATA_FLAG_PEEK)); |
| |
| // Discard two characters. |
| num_bytes = 2; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadData( |
| ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_DISCARD | MOJO_READ_DATA_FLAG_ALL_OR_NONE)); |
| |
| // Try a two-phase read of the remaining two bytes with peek. Should fail. |
| const void* read_ptr = nullptr; |
| num_bytes = 2; |
| ASSERT_EQ(MOJO_RESULT_INVALID_ARGUMENT, |
| core()->BeginReadData(ch, MakeUserPointer(&read_ptr), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_PEEK)); |
| |
| // Read the remaining two characters, in two-phase mode (all-or-none). |
| num_bytes = 2; |
| ASSERT_EQ(MOJO_RESULT_OK, |
| core()->BeginReadData(ch, MakeUserPointer(&read_ptr), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_ALL_OR_NONE)); |
| // Note: Count on still being able to do the contiguous read here. |
| ASSERT_EQ(2u, num_bytes); |
| |
| // Discarding right now should fail. |
| num_bytes = 1; |
| EXPECT_EQ(MOJO_RESULT_BUSY, |
| core()->ReadData(ch, NullUserPointer(), MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_DISCARD)); |
| |
| // Actually check our data and end the two-phase read. |
| EXPECT_EQ('D', static_cast<const char*>(read_ptr)[0]); |
| EXPECT_EQ('E', static_cast<const char*>(read_ptr)[1]); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->EndReadData(ch, 2u)); |
| |
| // Consumer should now be no longer readable. |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_DEADLINE_EXCEEDED, |
| core()->Wait(ch, MOJO_HANDLE_SIGNAL_READABLE, 0, MakeUserPointer(&hss))); |
| EXPECT_EQ(0u, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| |
| // TODO(vtl): More. |
| |
| // Close the producer. |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(ph)); |
| |
| // The consumer should now be never-readable. |
| hss = kFullMojoHandleSignalsState; |
| EXPECT_EQ( |
| MOJO_RESULT_FAILED_PRECONDITION, |
| core()->Wait(ch, MOJO_HANDLE_SIGNAL_READABLE, 0, MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_PEER_CLOSED, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_PEER_CLOSED, hss.satisfiable_signals); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(ch)); |
| } |
| |
| // Tests passing data pipe producer and consumer handles. |
| TEST_F(CoreTest, MessagePipeBasicLocalHandlePassing2) { |
| const char kHello[] = "hello"; |
| const uint32_t kHelloSize = static_cast<uint32_t>(sizeof(kHello)); |
| const char kWorld[] = "world!!!"; |
| const uint32_t kWorldSize = static_cast<uint32_t>(sizeof(kWorld)); |
| char buffer[100]; |
| const uint32_t kBufferSize = static_cast<uint32_t>(sizeof(buffer)); |
| uint32_t num_bytes; |
| MojoHandle handles[10]; |
| uint32_t num_handles; |
| MojoHandleSignalsState hss; |
| |
| MojoHandle h_passing[2]; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateMessagePipe(NullUserPointer(), |
| MakeUserPointer(&h_passing[0]), |
| MakeUserPointer(&h_passing[1]))); |
| |
| MojoHandle ph, ch; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->CreateDataPipe(NullUserPointer(), MakeUserPointer(&ph), |
| MakeUserPointer(&ch))); |
| |
| // Send |ch| from |h_passing[0]| to |h_passing[1]|. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&ch), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| EXPECT_EQ(1u, num_handles); |
| MojoHandle ch_received = handles[0]; |
| EXPECT_NE(ch_received, MOJO_HANDLE_INVALID); |
| EXPECT_NE(ch_received, h_passing[0]); |
| EXPECT_NE(ch_received, h_passing[1]); |
| EXPECT_NE(ch_received, ph); |
| |
| // Note: We rely on the Mojo system not re-using handle values very often. |
| EXPECT_NE(ch_received, ch); |
| |
| // |ch| should no longer be valid; check that trying to close it fails. See |
| // above note. |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(ch)); |
| |
| // Write to |ph|. Should receive on |ch_received|. |
| num_bytes = kWorldSize; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteData(ph, UserPointer<const void>(kWorld), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_ALL_OR_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(ch_received, MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadData(ch_received, UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kWorldSize, num_bytes); |
| EXPECT_STREQ(kWorld, buffer); |
| |
| // Now pass |ph| in the same direction. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kWorld), |
| kWorldSize, MakeUserPointer(&ph), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kWorldSize, num_bytes); |
| EXPECT_STREQ(kWorld, buffer); |
| EXPECT_EQ(1u, num_handles); |
| MojoHandle ph_received = handles[0]; |
| EXPECT_NE(ph_received, MOJO_HANDLE_INVALID); |
| EXPECT_NE(ph_received, h_passing[0]); |
| EXPECT_NE(ph_received, h_passing[1]); |
| EXPECT_NE(ph_received, ch_received); |
| |
| // Again, rely on the Mojo system not re-using handle values very often. |
| EXPECT_NE(ph_received, ph); |
| |
| // |ph| should no longer be valid; check that trying to close it fails. See |
| // above note. |
| EXPECT_EQ(MOJO_RESULT_INVALID_ARGUMENT, core()->Close(ph)); |
| |
| // Write to |ph_received|. Should receive on |ch_received|. |
| num_bytes = kHelloSize; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteData(ph_received, UserPointer<const void>(kHello), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_ALL_OR_NONE)); |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(ch_received, MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadData(ch_received, UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| |
| ph = ph_received; |
| ph_received = MOJO_HANDLE_INVALID; |
| ch = ch_received; |
| ch_received = MOJO_HANDLE_INVALID; |
| |
| // Make sure that |ph| can't be sent if it's in a two-phase write. |
| void* write_ptr = nullptr; |
| num_bytes = 0; |
| ASSERT_EQ(MOJO_RESULT_OK, |
| core()->BeginWriteData(ph, MakeUserPointer(&write_ptr), |
| MakeUserPointer(&num_bytes), |
| MOJO_WRITE_DATA_FLAG_NONE)); |
| ASSERT_GE(num_bytes, 1u); |
| EXPECT_EQ(MOJO_RESULT_BUSY, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&ph), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| // But |ch| can, even if |ph| is in a two-phase write. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&ch), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| ch = MOJO_HANDLE_INVALID; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| NullUserPointer())); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kHelloSize, num_bytes); |
| EXPECT_STREQ(kHello, buffer); |
| EXPECT_EQ(1u, num_handles); |
| ch = handles[0]; |
| EXPECT_NE(ch, MOJO_HANDLE_INVALID); |
| |
| // Complete the two-phase write. |
| static_cast<char*>(write_ptr)[0] = 'x'; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->EndWriteData(ph, 1)); |
| |
| // Wait for |ch| to be readable. |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Wait(ch, MOJO_HANDLE_SIGNAL_READABLE, |
| 1000000000, MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE, hss.satisfied_signals); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_PEER_CLOSED, |
| hss.satisfiable_signals); |
| |
| // Make sure that |ch| can't be sent if it's in a two-phase read. |
| const void* read_ptr = nullptr; |
| num_bytes = 1; |
| ASSERT_EQ(MOJO_RESULT_OK, |
| core()->BeginReadData(ch, MakeUserPointer(&read_ptr), |
| MakeUserPointer(&num_bytes), |
| MOJO_READ_DATA_FLAG_ALL_OR_NONE)); |
| EXPECT_EQ(MOJO_RESULT_BUSY, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kHello), |
| kHelloSize, MakeUserPointer(&ch), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| |
| // But |ph| can, even if |ch| is in a two-phase read. |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->WriteMessage(h_passing[0], UserPointer<const void>(kWorld), |
| kWorldSize, MakeUserPointer(&ph), 1, |
| MOJO_WRITE_MESSAGE_FLAG_NONE)); |
| ph = MOJO_HANDLE_INVALID; |
| hss = kEmptyMojoHandleSignalsState; |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->Wait(h_passing[1], MOJO_HANDLE_SIGNAL_READABLE, 1000000000, |
| MakeUserPointer(&hss))); |
| EXPECT_EQ(MOJO_HANDLE_SIGNAL_READABLE | MOJO_HANDLE_SIGNAL_WRITABLE, |
| hss.satisfied_signals); |
| EXPECT_EQ(kAllSignals, hss.satisfiable_signals); |
| num_bytes = kBufferSize; |
| num_handles = MOJO_ARRAYSIZE(handles); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->ReadMessage( |
| h_passing[1], UserPointer<void>(buffer), |
| MakeUserPointer(&num_bytes), MakeUserPointer(handles), |
| MakeUserPointer(&num_handles), MOJO_READ_MESSAGE_FLAG_NONE)); |
| EXPECT_EQ(kWorldSize, num_bytes); |
| EXPECT_STREQ(kWorld, buffer); |
| EXPECT_EQ(1u, num_handles); |
| ph = handles[0]; |
| EXPECT_NE(ph, MOJO_HANDLE_INVALID); |
| |
| // Complete the two-phase read. |
| EXPECT_EQ('x', static_cast<const char*>(read_ptr)[0]); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->EndReadData(ch, 1)); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_passing[0])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h_passing[1])); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(ph)); |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(ch)); |
| } |
| |
| struct TestAsyncWaiter { |
| TestAsyncWaiter() : result(MOJO_RESULT_UNKNOWN) {} |
| |
| void Awake(MojoResult r) { result = r; } |
| |
| MojoResult result; |
| }; |
| |
| TEST_F(CoreTest, AsyncWait) { |
| TestAsyncWaiter waiter; |
| MockHandleInfo info; |
| MojoHandle h = CreateMockHandle(&info); |
| |
| EXPECT_EQ(MOJO_RESULT_FAILED_PRECONDITION, |
| core()->AsyncWait(h, MOJO_HANDLE_SIGNAL_READABLE, |
| base::Bind(&TestAsyncWaiter::Awake, |
| base::Unretained(&waiter)))); |
| EXPECT_EQ(0u, info.GetAddedAwakableSize()); |
| |
| info.AllowAddAwakable(true); |
| EXPECT_EQ(MOJO_RESULT_OK, |
| core()->AsyncWait(h, MOJO_HANDLE_SIGNAL_READABLE, |
| base::Bind(&TestAsyncWaiter::Awake, |
| base::Unretained(&waiter)))); |
| EXPECT_EQ(1u, info.GetAddedAwakableSize()); |
| |
| EXPECT_FALSE(info.GetAddedAwakableAt(0)->Awake(MOJO_RESULT_BUSY, 0)); |
| EXPECT_EQ(MOJO_RESULT_BUSY, waiter.result); |
| |
| EXPECT_EQ(MOJO_RESULT_OK, core()->Close(h)); |
| } |
| |
| // TODO(vtl): Test |DuplicateBufferHandle()| and |MapBuffer()|. |
| |
| } // namespace |
| } // namespace system |
| } // namespace mojo |
